Jesus Diaz

Unlike NASA's Blue Marble—which is a composite made from many different photographs—this is a portrait of Earth taken in one single shot. It's the highest resolution image of our home planet, 121 megapixels. That's an amazing 0.62 miles per pixel.

While this morning's orbital image of Mercury is historic, these two images are the ones that…
Read more Read more

Elektro-L is now orbiting Earth on a geostationary orbit 36,000 kilometers above the equator, sending photographs of the entire planet every 30 minutes using a 2.56 to 16.36 Mbits per second connection with ground control. The images—and the video of the Northern Hemisphere—combines four light wavelengths, three visible and one infrared. The orange you are seeing here is the vegetation.

Advertisement

According to Robert Simmon-a scientist at the NASA Earth Observatory, Goddard Space Flight Center-the Russian images are not better or worse than NASA's images. They are just different visualizations of reality based on different data sets:

Elektro-L is a Russian Satellite similar to GOES (the satellites that provide the cloud image loops shown on the news every night). The images posted by Gizmodo are a combination of visible and near-infrared wavelengths, so they show the Earth in a way not visible to human eyes (vegetation looks red, for example). They're not any better or worse than NASA images, but they show different things.

The Elektro-L is similar to their GOES satellites. "It's a geostationary weather satellite orbiting above the equator at ~54˚ East" says Robert, "the US has two similar operational geostationary satellites over the east and west coasts, EUMETSAT has one over Europe and one over the Indian Ocean, Japan has one over the far western Pacific." The difference between them is that Elektro-L uses three bands in reflected light-red and two near infrared bands-while NASA's GOES doesn't have the near-infrared.

The 3 reflected sunlight bands can simulate a conventional red-green-blue color picture. The near infrared channel is a vegetation indicator, since plants reflect near-ir as well as green. You can learn more about the basic characteristics of Elektro-L's ten-channel imager, the Multichannel Scanning Unit (MSU), here.